mirror of
https://github.com/ceph/ceph
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191cce74e1
Signed-off-by: John Spray <john.spray@redhat.com>
549 lines
17 KiB
ReStructuredText
549 lines
17 KiB
ReStructuredText
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=============
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Health checks
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=============
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Overview
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========
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There is a finite set of possible health messages that a Ceph cluster can
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raise -- these are defined as *health checks* which have unique identifiers.
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The identifier is a terse pseudo-human-readable (i.e. like a variable name)
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string. It is intended to enable tools (such as UIs) to make sense of
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health checks, and present them in a way that reflects their meaning.
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This page lists the health checks that are raised by the monitor and manager
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daemons. In addition to these, you may also see health checks that originate
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from MDS daemons (see :ref:`cephfs-health-messages`), and health checks
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that are defined by ceph-mgr python modules.
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Definitions
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===========
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Manager
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-------
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MGR_MODULE_DEPENDENCY
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_____________________
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An enabled manager module is failing its dependency check. This health check
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should come with an explanatory message from the module about the problem.
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For example, a module might report that a required package is not installed:
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install the required package and restart your manager daemons.
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This health check is only applied to enabled modules. If a module is
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not enabled, you can see whether it is reporting dependency issues in
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the output of `ceph module ls`.
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MGR_MODULE_ERROR
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________________
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A manager module has experienced an unexpected error. Typically,
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this means an unhandled exception was raised from the module's `serve`
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function. The human readable description of the error may be obscurely
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worded if the exception did not provide a useful description of itself.
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This health check may indicate a bug: please open a Ceph bug report if you
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think you have encountered a bug.
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If you believe the error is transient, you may restart your manager
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daemon(s), or use `ceph mgr fail` on the active daemon to prompt
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a failover to another daemon.
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OSDs
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----
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OSD_DOWN
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________
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One or more OSDs are marked down. The ceph-osd daemon may have been
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stopped, or peer OSDs may be unable to reach the OSD over the network.
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Common causes include a stopped or crashed daemon, a down host, or a
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network outage.
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Verify the host is healthy, the daemon is started, and network is
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functioning. If the daemon has crashed, the daemon log file
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(``/var/log/ceph/ceph-osd.*``) may contain debugging information.
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OSD_<crush type>_DOWN
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_____________________
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(e.g. OSD_HOST_DOWN, OSD_ROOT_DOWN)
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All the OSDs within a particular CRUSH subtree are marked down, for example
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all OSDs on a host.
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OSD_ORPHAN
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__________
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An OSD is referenced in the CRUSH map hierarchy but does not exist.
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The OSD can be removed from the CRUSH hierarchy with::
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ceph osd crush rm osd.<id>
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OSD_OUT_OF_ORDER_FULL
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_____________________
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The utilization thresholds for `backfillfull`, `nearfull`, `full`,
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and/or `failsafe_full` are not ascending. In particular, we expect
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`backfillfull < nearfull`, `nearfull < full`, and `full <
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failsafe_full`.
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The thresholds can be adjusted with::
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ceph osd set-backfillfull-ratio <ratio>
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ceph osd set-nearfull-ratio <ratio>
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ceph osd set-full-ratio <ratio>
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OSD_FULL
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________
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One or more OSDs has exceeded the `full` threshold and is preventing
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the cluster from servicing writes.
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Utilization by pool can be checked with::
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ceph df
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The currently defined `full` ratio can be seen with::
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ceph osd dump | grep full_ratio
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A short-term workaround to restore write availability is to raise the full
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threshold by a small amount::
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ceph osd set-full-ratio <ratio>
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New storage should be added to the cluster by deploying more OSDs or
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existing data should be deleted in order to free up space.
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OSD_BACKFILLFULL
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________________
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One or more OSDs has exceeded the `backfillfull` threshold, which will
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prevent data from being allowed to rebalance to this device. This is
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an early warning that rebalancing may not be able to complete and that
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the cluster is approaching full.
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Utilization by pool can be checked with::
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ceph df
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OSD_NEARFULL
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____________
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One or more OSDs has exceeded the `nearfull` threshold. This is an early
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warning that the cluster is approaching full.
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Utilization by pool can be checked with::
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ceph df
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OSDMAP_FLAGS
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____________
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One or more cluster flags of interest has been set. These flags include:
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* *full* - the cluster is flagged as full and cannot service writes
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* *pauserd*, *pausewr* - paused reads or writes
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* *noup* - OSDs are not allowed to start
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* *nodown* - OSD failure reports are being ignored, such that the
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monitors will not mark OSDs `down`
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* *noin* - OSDs that were previously marked `out` will not be marked
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back `in` when they start
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* *noout* - down OSDs will not automatically be marked out after the
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configured interval
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* *nobackfill*, *norecover*, *norebalance* - recovery or data
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rebalancing is suspended
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* *noscrub*, *nodeep_scrub* - scrubbing is disabled
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* *notieragent* - cache tiering activity is suspended
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With the exception of *full*, these flags can be set or cleared with::
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ceph osd set <flag>
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ceph osd unset <flag>
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OSD_FLAGS
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_________
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One or more OSDs has a per-OSD flag of interest set. These flags include:
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* *noup*: OSD is not allowed to start
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* *nodown*: failure reports for this OSD will be ignored
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* *noin*: if this OSD was previously marked `out` automatically
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after a failure, it will not be marked in when it stats
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* *noout*: if this OSD is down it will not automatically be marked
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`out` after the configured interval
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Per-OSD flags can be set and cleared with::
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ceph osd add-<flag> <osd-id>
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ceph osd rm-<flag> <osd-id>
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For example, ::
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ceph osd rm-nodown osd.123
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OLD_CRUSH_TUNABLES
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__________________
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The CRUSH map is using very old settings and should be updated. The
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oldest tunables that can be used (i.e., the oldest client version that
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can connect to the cluster) without triggering this health warning is
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determined by the ``mon_crush_min_required_version`` config option.
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See :ref:`crush-map-tunables` for more information.
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OLD_CRUSH_STRAW_CALC_VERSION
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____________________________
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The CRUSH map is using an older, non-optimal method for calculating
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intermediate weight values for ``straw`` buckets.
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The CRUSH map should be updated to use the newer method
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(``straw_calc_version=1``). See
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:ref:`crush-map-tunables` for more information.
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CACHE_POOL_NO_HIT_SET
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_____________________
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One or more cache pools is not configured with a *hit set* to track
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utilization, which will prevent the tiering agent from identifying
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cold objects to flush and evict from the cache.
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Hit sets can be configured on the cache pool with::
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ceph osd pool set <poolname> hit_set_type <type>
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ceph osd pool set <poolname> hit_set_period <period-in-seconds>
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ceph osd pool set <poolname> hit_set_count <number-of-hitsets>
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ceph osd pool set <poolname> hit_set_fpp <target-false-positive-rate>
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OSD_NO_SORTBITWISE
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__________________
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No pre-luminous v12.y.z OSDs are running but the ``sortbitwise`` flag has not
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been set.
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The ``sortbitwise`` flag must be set before luminous v12.y.z or newer
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OSDs can start. You can safely set the flag with::
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ceph osd set sortbitwise
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POOL_FULL
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_________
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One or more pools has reached its quota and is no longer allowing writes.
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Pool quotas and utilization can be seen with::
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ceph df detail
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You can either raise the pool quota with::
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ceph osd pool set-quota <poolname> max_objects <num-objects>
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ceph osd pool set-quota <poolname> max_bytes <num-bytes>
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or delete some existing data to reduce utilization.
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Data health (pools & placement groups)
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--------------------------------------
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PG_AVAILABILITY
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_______________
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Data availability is reduced, meaning that the cluster is unable to
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service potential read or write requests for some data in the cluster.
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Specifically, one or more PGs is in a state that does not allow IO
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requests to be serviced. Problematic PG states include *peering*,
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*stale*, *incomplete*, and the lack of *active* (if those conditions do not clear
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quickly).
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Detailed information about which PGs are affected is available from::
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ceph health detail
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In most cases the root cause is that one or more OSDs is currently
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down; see the dicussion for ``OSD_DOWN`` above.
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The state of specific problematic PGs can be queried with::
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ceph tell <pgid> query
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PG_DEGRADED
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___________
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Data redundancy is reduced for some data, meaning the cluster does not
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have the desired number of replicas for all data (for replicated
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pools) or erasure code fragments (for erasure coded pools).
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Specifically, one or more PGs:
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* has the *degraded* or *undersized* flag set, meaning there are not
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enough instances of that placement group in the cluster;
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* has not had the *clean* flag set for some time.
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Detailed information about which PGs are affected is available from::
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ceph health detail
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In most cases the root cause is that one or more OSDs is currently
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down; see the dicussion for ``OSD_DOWN`` above.
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The state of specific problematic PGs can be queried with::
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ceph tell <pgid> query
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PG_DEGRADED_FULL
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________________
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Data redundancy may be reduced or at risk for some data due to a lack
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of free space in the cluster. Specifically, one or more PGs has the
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*backfill_toofull* or *recovery_toofull* flag set, meaning that the
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cluster is unable to migrate or recover data because one or more OSDs
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is above the *backfillfull* threshold.
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See the discussion for *OSD_BACKFILLFULL* or *OSD_FULL* above for
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steps to resolve this condition.
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PG_DAMAGED
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__________
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Data scrubbing has discovered some problems with data consistency in
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the cluster. Specifically, one or more PGs has the *inconsistent* or
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*snaptrim_error* flag is set, indicating an earlier scrub operation
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found a problem, or that the *repair* flag is set, meaning a repair
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for such an inconsistency is currently in progress.
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See :doc:`pg-repair` for more information.
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OSD_SCRUB_ERRORS
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________________
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Recent OSD scrubs have uncovered inconsistencies. This error is generally
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paired with *PG_DAMANGED* (see above).
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See :doc:`pg-repair` for more information.
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CACHE_POOL_NEAR_FULL
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____________________
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A cache tier pool is nearly full. Full in this context is determined
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by the ``target_max_bytes`` and ``target_max_objects`` properties on
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the cache pool. Once the pool reaches the target threshold, write
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requests to the pool may block while data is flushed and evicted
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from the cache, a state that normally leads to very high latencies and
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poor performance.
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The cache pool target size can be adjusted with::
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ceph osd pool set <cache-pool-name> target_max_bytes <bytes>
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ceph osd pool set <cache-pool-name> target_max_objects <objects>
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Normal cache flush and evict activity may also be throttled due to reduced
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availability or performance of the base tier, or overall cluster load.
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TOO_FEW_PGS
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___________
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The number of PGs in use in the cluster is below the configurable
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threshold of ``mon_pg_warn_min_per_osd`` PGs per OSD. This can lead
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to suboptimizal distribution and balance of data across the OSDs in
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the cluster, and similar reduce overall performance.
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This may be an expected condition if data pools have not yet been
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created.
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The PG count for existing pools can be increased or new pools can be created.
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Please refer to :ref:`choosing-number-of-placement-groups` for more
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information.
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TOO_MANY_PGS
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____________
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The number of PGs in use in the cluster is above the configurable
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threshold of ``mon_max_pg_per_osd`` PGs per OSD. If this threshold is
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exceed the cluster will not allow new pools to be created, pool `pg_num` to
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be increased, or pool replication to be increased (any of which would lead to
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more PGs in the cluster). A large number of PGs can lead
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to higher memory utilization for OSD daemons, slower peering after
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cluster state changes (like OSD restarts, additions, or removals), and
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higher load on the Manager and Monitor daemons.
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The simplest way to mitigate the problem is to increase the number of
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OSDs in the cluster by adding more hardware. Note that the OSD count
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used for the purposes of this health check is the number of "in" OSDs,
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so marking "out" OSDs "in" (if there are any) can also help::
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ceph osd in <osd id(s)>
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Please refer to :ref:`choosing-number-of-placement-groups` for more
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information.
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SMALLER_PGP_NUM
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_______________
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One or more pools has a ``pgp_num`` value less than ``pg_num``. This
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is normally an indication that the PG count was increased without
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also increasing the placement behavior.
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This is sometimes done deliberately to separate out the `split` step
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when the PG count is adjusted from the data migration that is needed
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when ``pgp_num`` is changed.
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This is normally resolved by setting ``pgp_num`` to match ``pg_num``,
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triggering the data migration, with::
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ceph osd pool set <pool> pgp_num <pg-num-value>
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MANY_OBJECTS_PER_PG
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___________________
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One or more pools has an average number of objects per PG that is
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significantly higher than the overall cluster average. The specific
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threshold is controlled by the ``mon_pg_warn_max_object_skew``
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configuration value.
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This is usually an indication that the pool(s) containing most of the
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data in the cluster have too few PGs, and/or that other pools that do
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not contain as much data have too many PGs. See the discussion of
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*TOO_MANY_PGS* above.
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The threshold can be raised to silence the health warning by adjusting
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the ``mon_pg_warn_max_object_skew`` config option on the monitors.
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POOL_APP_NOT_ENABLED
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____________________
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A pool exists that contains one or more objects but has not been
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tagged for use by a particular application.
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Resolve this warning by labeling the pool for use by an application. For
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example, if the pool is used by RBD,::
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rbd pool init <poolname>
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If the pool is being used by a custom application 'foo', you can also label
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via the low-level command::
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ceph osd pool application enable foo
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For more information, see :ref:`associate-pool-to-application`.
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POOL_FULL
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_________
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One or more pools has reached (or is very close to reaching) its
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quota. The threshold to trigger this error condition is controlled by
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the ``mon_pool_quota_crit_threshold`` configuration option.
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Pool quotas can be adjusted up or down (or removed) with::
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ceph osd pool set-quota <pool> max_bytes <bytes>
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ceph osd pool set-quota <pool> max_objects <objects>
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Setting the quota value to 0 will disable the quota.
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POOL_NEAR_FULL
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______________
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One or more pools is approaching is quota. The threshold to trigger
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this warning condition is controlled by the
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``mon_pool_quota_warn_threshold`` configuration option.
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Pool quotas can be adjusted up or down (or removed) with::
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ceph osd pool set-quota <pool> max_bytes <bytes>
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ceph osd pool set-quota <pool> max_objects <objects>
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Setting the quota value to 0 will disable the quota.
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OBJECT_MISPLACED
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________________
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One or more objects in the cluster is not stored on the node the
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cluster would like it to be stored on. This is an indication that
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data migration due to some recent cluster change has not yet completed.
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Misplaced data is not a dangerous condition in and of itself; data
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consistency is never at risk, and old copies of objects are never
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removed until the desired number of new copies (in the desired
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locations) are present.
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OBJECT_UNFOUND
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______________
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One or more objects in the cluster cannot be found. Specifically, the
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OSDs know that a new or updated copy of an object should exist, but a
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copy of that version of the object has not been found on OSDs that are
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currently online.
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Read or write requests to unfound objects will block.
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Ideally, a down OSD can be brought back online that has the more
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recent copy of the unfound object. Candidate OSDs can be identified from the
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peering state for the PG(s) responsible for the unfound object::
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ceph tell <pgid> query
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If the latest copy of the object is not available, the cluster can be
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told to roll back to a previous version of the object. See
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:ref:`failures-osd-unfound` for more information.
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SLOW_OPS
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________
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One or more OSD requests is taking a long time to process. This can
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be an indication of extreme load, a slow storage device, or a software
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bug.
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The request queue on the OSD(s) in question can be queried with the
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following command, executed from the OSD host::
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ceph daemon osd.<id> ops
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A summary of the slowest recent requests can be seen with::
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ceph daemon osd.<id> dump_historic_ops
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The location of an OSD can be found with::
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ceph osd find osd.<id>
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PG_NOT_SCRUBBED
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_______________
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One or more PGs has not been scrubbed recently. PGs are normally
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scrubbed every ``mon_scrub_interval`` seconds, and this warning
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triggers when ``mon_warn_not_scrubbed`` such intervals have elapsed
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without a scrub.
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PGs will not scrub if they are not flagged as *clean*, which may
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happen if they are misplaced or degraded (see *PG_AVAILABILITY* and
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*PG_DEGRADED* above).
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You can manually initiate a scrub of a clean PG with::
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ceph pg scrub <pgid>
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PG_NOT_DEEP_SCRUBBED
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____________________
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One or more PGs has not been deep scrubbed recently. PGs are normally
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scrubbed every ``osd_deep_mon_scrub_interval`` seconds, and this warning
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triggers when ``mon_warn_not_deep_scrubbed`` such intervals have elapsed
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without a scrub.
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PGs will not (deep) scrub if they are not flagged as *clean*, which may
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happen if they are misplaced or degraded (see *PG_AVAILABILITY* and
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*PG_DEGRADED* above).
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You can manually initiate a scrub of a clean PG with::
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ceph pg deep-scrub <pgid>
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